A radiator plate includes a metallic matrix and a dispersant. The metallic matrix exhibits a predetermined coefficient of thermal expansion. The dispersant is dispersed in the metallic matrix, and exhibits a coefficient of thermal expansion being smaller than that of the metallic matrix. The radiator plate has a heat-receiving surface, on which an electric device serving as a heat generator is disposed, and a heat-radiating surface for radiating heat received from the heat-receiving surface. The dispersant is dispersed more on the heat-receiving-surface side than on the heat-radiating-surface side. Thus, the radiator plate is inhibited from warping, and is good in terms of the dimensional stability as a final product. Moreover, the thermal resistance is diminished between the heat-receiving surface and the heat-radiating surface. Accordingly, the heat-radiating ability of the radiator plate is secured. Also disclosed is a process for manufacturing the radiator plate.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A radiator plate, comprising: a metallic matrix exhibiting a predetermined coefficient of thermal expansion; and a dispersant being dispersed in said metallic matrix and exhibiting a coefficient of thermal expansion being smaller than that of said metallic matrix; said radiator plate having a heat-receiving surface, and a heat-radiating surface for radiating heat received from the heat-receiving surface; said dispersant comprising a primary crystal crystallized from a hypereutectic molten alloy and being dispersed more on a side of said heat-receiving surface than on a side of said heat-radiating surface.
2. The radiator plate according to claim 1 , wherein said metallic matrix is at least one member selected from the group consisting of pure metals and alloys thereof.
3. The radiator plate according to claim 2 , wherein the pure metal is at least one member selected from the group consisting of aluminum, magnesium, copper and zinc.
4. The radiator plate according to claim 1 , where said hypereutectic molten alloy is a molten aluminum-silicon alloy whose hypereutectic component is silicon.
5. The radiator plate according to claim 4 , wherein said dispersant is composed of primary crystal silicon particles.
6. The radiator plate according to claim 5 , wherein said primary crystal silicon particles comprise at least one member selected from the group consisting of a silicon simple substance and compounds being composed of said metallic matrix and silicon.
7. The radiator plate according to claim 4 , where said metallic matrix comprises aluminum as a major component.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
October 24, 2001
July 22, 2003
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